Brain Steroidogenesis Mediates Ethanol Modulation of GABAA Receptor Activity in Rat Hippocampus (original) (raw)
2004, Journal of Neuroscience
An interaction with the GABA type A (GABA A ) receptor has long been recognized as one of the main neurochemical mechanisms underlying many of the pharmacological actions of ethanol. However, more recent data have suggested that certain behavioral and electrophysiological actions of ethanol are mediated by an increase in brain concentration of neuroactive steroids that results from stimulation of the hypothalamic-pituitary-adrenal (HPA) axis. Neuroactive steroids such as 3␣-hydroxy-5␣-pregnan-20-one (3␣,5␣-THP) are, in fact, potent and efficacious endogenous positive modulators of GABA A receptor function. Because neurosteroids can be synthesized de novo in the brain, we have investigated whether ethanol might affect both neurosteroid synthesis and GABA A receptor function in isolated rat hippocampal tissue. Here, we show that ethanol increases the concentration of 3␣,5␣-THP as well as the amplitude of GABA A receptor-mediated IPSCs recorded from CA1 pyramidal neurons in isolated hippocampal slices. These effects are shared by the neurosteroid precursor progesterone, the peripheral benzodiazepine receptor-selective agonist CB34, and ␥-hydroxybutyrate, all of which are known to increase the formation of neuroactive steroids in plasma and in the brain. The action of ethanol on GABA A receptormediated IPSC amplitude is biphasic, consisting of a rapid, direct effect on GABA A receptor activity and an indirect effect that appears to be mediated by neurosteroid synthesis. Furthermore, ethanol affects GABA A receptor activity through a presynaptic action, an effect that is not dependent on neurosteroid formation. These observations suggest that ethanol may modulate GABA A receptor function through an increase in de novo neurosteroid synthesis in the brain that is independent of the HPA axis. This novel mechanism may have a crucial role in mediating specific central effects of ethanol.
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